[1] [1] PAN T， GUAN H， HE W. GF-2 satellite remote sensing technology ［J］. Spacecraft Recovery & Remote Sensing， 2015， 36(4): 16-24. (in Chinese)

[2] [2] JIANG H B， LUO SH K， CAO D J， et al.. Technology of high-density and high-resolution camera of GF-2 satellite ［J］. Spacecraft Recovery & Remote Sensing， 2015， 36(4): 25-33. (in Chinese)

[3] [3] WEI X G， WANG Q L， LI J， et al.. On-orbit calibration for cross-angle between optical axes of star sensor and remote sensing camera ［J］. Opt. Precision Eng.， 2013， 21(2): 274-280. (in Chinese)

[4] [4] SONG J R， XING H， MU SH B， et al.. Alignment of aerial multi-angle infrared camera ［J］. Opt. Precision Eng.， 2015， 23(8): 2125-2133. (in Chinese)

[5] [5] YANG Z H， YANG S， WAN B L， et al.. Posture metrology for aerospace camera in the assembly of spacecraft ［J］. SPIE， 2015， 9903: 990331.

[6] [6] ZHANG R， CHEN H H， LI G Y， et al.. Preliminary research on data abnormality diagnosis methods of spacecraft precision measurement ［J］. Journal of Engineering Research and Applications， 2015， 5(2): 9-15.

[7] [7] ZHANG R， CHEN H H， YANG Z H， et al.. Design of a data processing system for automatic measurement of spacecraft ［J］. Journal of Convergence Information Technology (JCIT)， 2015， 10(2): 57-61.

[8] [8] PAN T Y， FAN B X， XI Q， et al.. Research of theodolite scale joint calibration technology［J］. Engineering of Surveying and Mapping， 2016， 25(5): 56-58. (in Chinese)

[9] [9] GAO T， SUN A B， MA L Q， et al.. A novel digital collimation telescope with self-calibration ［J］. Metrology & Measurement Technology， 2016， 36(3): 18-21. (in Chinese)

[10] [10] HU W CH， QIU Z R， ZHANG G X， et al.. Measurement of large-scale space angle formed by non-uniplanar lines ［J］. Opt. Precision Eng.， 2012， 20(7): 1427-1433. (in Chinese)

[11] [11] LI Y H， QIU Y R， CHEN Y X， et al.. A novel orientation and position measuring system for large & medium scale precision assembly ［J］. Optics and Lasers in Engineering， 2014， 62: 31-37.